Ms. Jingyang Xu | Cancer Biology | Best Researcher Award

Southwest University | China

Xu Jingyang is a highly motivated young biologist pursuing her master’s degree at Southwest University in the Key Laboratory of Resource Insects for Efficient Utilization, where she works under Professor Cui Hongjuan on anticancer mechanisms of mulberry-derived active compounds. She graduated top of her class in Biotechnology at Southwest University, earning first rank and direct admission into her master’s program with a strong foundation in biotechnology, pharmacology, and molecular biology. Her hands-on expertise spans PCR, RT-qPCR, Western blotting, DNA recombination, cell culture, tumor assays, and animal experimental models, alongside strong skills in data visualization and bioinformatics using GraphPad Prism, ImageJ, FlowJo, PyMOL, KEGG, and TCGA. Xu’s research centers on natural product pharmacology, focusing on the role of plant-derived molecules in regulating ferroptosis, apoptosis, and senescence to inhibit tumor progression in cancers such as glioblastoma, gastric, and liver cancer, with an emphasis on improving chemotherapy sensitivity and overcoming resistance. Her academic journey is marked by excellence and leadership, demonstrated by multiple scholarships, recognition as an outstanding youth league member, and leadership in interdisciplinary research innovation projects. With published work in reputable journals, contributions to patents, and active participation in collaborative projects, Xu Jingyang represents a rising talent in biomedical sciences with strong potential for impactful translational research. She has authored 3 scientific documents with 4 citations across 4 citing documents, reflecting her growing influence in the field.

Profile : Scopus 

Featured Publications

• Mori Folium ethanol extracts induce ferroptosis and suppress gastric cancer progression by inhibiting the AKT/GSK3β/NRF2 axis. (n.d.). Phytomedicine, 142, 156789. (Cited by multiple articles)

• Albanol B inhibits glioblastoma progression by inducing senescence and apoptosis via the RNF6/p27 signaling axis. (n.d.). Phytomedicine, 146, 157056. (Cited by multiple articles)